Academia Arena 2017;9(12s) http://www.sciencepub.net/academia

G.R. Irlapati’S Geoscope

Gangadhara Rao Irlapati

H. No.5-30-4/1, Saibabanagar, Jeedimetla,, Hyderabad, India-500055Email: scientistgangadhar@gmail.com

Abstract: I have conducted many researches on the earthquakes during the year of 1980-87 and invented the Geoscope which ca n help to forewarn the earthquakes in advance Sri. AJVB Maheswara Rao Member of Parliament (Loksabha) was recommended the Geoscope to Sri K. R. Narayanan, Minister of science & Technology Department for further research and development in the services of the country. In 1989, the Honble High Court of Andhra Pradesh was also issued orders to the government of India, Ministry of science & Technology, council of scientific and Industrial Research to provide research facilities to carryout the experiments in National Geophysical Research Institute, Hyderabad for Implementation in the service of the country.[Gangadhara Rao Irlapati. G.R. Irlapati’S Geoscope. Academ Arena 2017;9(12s): 355-370]. (ISSN 1553-992X). http://www.sciencepub.net/academia. 12. doi:10.7537/marsaaj0912s17 12 .

Keywords: Earth Quaker, Local, Regional, Central Geoscope Centers: Simple, Homemade, Micro Geoscope Centers: Seismic luminescence studies, Electrogeopluse study etc.

Importance:By setting up the National Geoscope Project and

maintain, the country can be predicted the impending earthquakes, volcanic hazards(and storm surges, tsunamis etc consequence secondary hazards due to the earthquakes occur in the womb that means underground of the sea or ocean if the country have the chances of occurring of these disasters) in advance.

By setting up the National Geoscope Project and maintain, the country can be predicted the earth’s underground resources like metallic resources such as iron, gold, silver, tin, copper, nickel, aluminum, chromium etc mine sites and non-metallic resources like sand gravel, gypsum, halite, uranium, dimension stones, etc. can be found by inserting many kinds of super high remote sensing technology in the area of sensor physics, signal processing used specially image processing, electromagnetic detection technology and geophysical deep underground detectors and mineral exploration equipments, natural gas sensors etc in the undergroung of the through the Geoscope.

Setting up the National Geoscope Project and maintain will also be useful in emerging industries such as geothermal and geo-sequestration etc.

1. Introduction:Geoscope is very easy and simple invention

which can help to forewarn the earthquakes in advance and also useful to study the earth’s underground. Geoscope means- a mechanical architecture established in between the underground and the surface observatory with the help of bore-well proposed for conducting geological studies to know the earthquakes, ores and water currents etc.Country-Wise National Geoscope Projects:

I have also proposed about 200 country-wise National Geoscope Projects for all the world countries.

Afghanistan - National Geoscope ProjectAlbania - National Geoscope ProjectAlgeria - National Geoscope ProjectAmerican Samoa - National Geoscope ProjectAndorra - National Geoscope ProjectAngola - National Geoscope ProjectAnguilla - National Geoscope ProjectArgentina - National Geoscope ProjectAntigua and Barbuda - National Geoscope ProjectArgentina - National Geoscope ProjectArmenia - National Geoscope ProjectAruba - National Geoscope ProjectAustralia - National Geoscope ProjectAustria - National Geoscope ProjectAzerbaijan - National Geoscope ProjectBahamas - National Geoscope ProjectBahrain - National Geoscope ProjectBangladesh - National Geoscope ProjectBarbados - National Geoscope ProjectBelarus - National Geoscope ProjectBelgium - National Geoscope ProjectBelize - National Geoscope ProjectBenin - National Geoscope ProjectBermuda - National Geoscope ProjectBhutan - National Geoscope ProjectBolivia - National Geoscope ProjectBosnia and HerzegovinaBotswana - National Geoscope ProjectBrazil - National Geoscope ProjectBrunei and Darussalam - National Geoscope ProjectBulgaria - National Geoscope Project

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Burkina Faso - National Geoscope ProjectBurundi - National Geoscope ProjectCambodia - National Geoscope ProjectCameroon - National Geoscope ProjectCanada - National Geoscope ProjectCape Verde - National Geoscope ProjectCayman Islands - National Geoscope ProjectCentral African Republic - National Geoscope ProjectChad - National Geoscope ProjectChile - National Geoscope ProjectChina - National Geoscope ProjectChristmas Islands - National Geoscope ProjectCocas Keeling Islands - National Geoscope ProjectColombia - National Geoscope ProjectComoros - National Geoscope ProjectCongo (Kinshasa) - National Geoscope ProjectRepublic of Congo (Brazzaville) - National Geoscope ProjectCook Islands - National Geoscope ProjectCosta Rica - National Geoscope ProjectIvory Coast - National Geoscope ProjectCroatia - National Geoscope ProjectCuba Cyprus - National Geoscope ProjectCzech Republic - National Geoscope ProjectDenmark - National Geoscope ProjectDjibouti - National Geoscope ProjectDominica - National Geoscope ProjectDominican Republic - National Geoscope ProjectEast Timor (Timor-Leste) - National Geoscope ProjectEcuador - National Geoscope ProjectEgypt - National Geoscope ProjectEl Salvador - National Geoscope ProjectEquatorial Guinea - National Geoscope ProjectEritrea - National Geoscope ProjectEstonia - National Geoscope ProjectEthiopia - National Geoscope ProjectFalkland Islands - National Geoscope ProjectFaroe Islands - National Geoscope ProjectFiji - National Geoscope ProjectFinland - National Geoscope ProjectFrance - National Geoscope ProjectFrench Guiana - National Geoscope ProjectFrench Polynesia - National Geoscope ProjectFrench Southern Territories - National Geoscope ProjectGabon - National Geoscope ProjectGambia - National Geoscope ProjectGeorgia - National Geoscope ProjectGermany - National Geoscope ProjectGhana - National Geoscope ProjectGibraltar - National Geoscope Project

Great Britain - National Geoscope ProjectGreece - National Geoscope ProjectGreenland - National Geoscope ProjectGrenada - National Geoscope ProjectGuadeloupe - National Geoscope ProjectGuam - National Geoscope ProjectGuatemala - National Geoscope ProjectGuinea - National Geoscope ProjectGuinea-Bissau - National Geoscope ProjectGuyana - National Geoscope ProjectHaiti - National Geoscope ProjectHoly See - National Geoscope ProjectHonduras - National Geoscope ProjectHonduras - National Geoscope ProjectHong Kong - National Geoscope ProjectHungary - National Geoscope ProjectIceland - National Geoscope ProjectIndia - National Geoscope ProjectIndonesia - National Geoscope ProjectIran - National Geoscope ProjectIraq - National Geoscope ProjectIreland - National Geoscope ProjectIsrael - National Geoscope ProjectItaly - National Geoscope ProjectJamaica - National Geoscope ProjectJapan - National Geoscope ProjectJordan - National Geoscope ProjectKazakhstan - National Geoscope ProjectKenya - National Geoscope ProjectKiribati - National Geoscope ProjectKorea North - National Geoscope ProjectKorea South - National Geoscope ProjectKosovo - National Geoscope ProjectKuwait - National Geoscope ProjectKyrgyzstan - National Geoscope ProjectLaos (People Democratic) - National Geoscope ProjectLatvia - National Geoscope ProjectLebanon - National Geoscope ProjectLesotho - National Geoscope ProjectLiberia - National Geoscope ProjectLibya - National Geoscope ProjectLiechtenstein - National Geoscope ProjectLithuania - National Geoscope ProjectLuxembourg - National Geoscope ProjectMacau - National Geoscope ProjectMacedonia - National Geoscope ProjectMadagascar - National Geoscope ProjectMalawi - National Geoscope ProjectMalaysia - National Geoscope ProjectMaldives - National Geoscope ProjectMali - National Geoscope ProjectMalta - National Geoscope Project

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Marshall Islands - National Geoscope ProjectMartinique - National Geoscope ProjectMauritania - National Geoscope ProjectMauritius - National Geoscope ProjectMayotte - National Geoscope ProjectMexico - National Geoscope ProjectMicronesia - National Geoscope ProjectMoldova - National Geoscope ProjectMonaco - National Geoscope ProjectMongolia - National Geoscope ProjectMontenegro - National Geoscope ProjectMontserrat - National Geoscope ProjectMorocco - National Geoscope ProjectMozambique - National Geoscope ProjectMyanmar Burma - National Geoscope ProjectNamibia - National Geoscope ProjectNauru - National Geoscope ProjectNepal - National Geoscope ProjectNetherlands - National Geoscope ProjectNew Zealand - National Geoscope ProjectNicaragua - National Geoscope ProjectNiger - National Geoscope ProjectNigeria - National Geoscope ProjectNiue - National Geoscope ProjectNorthern Mariana Islands - National Geoscope ProjectNorway - National Geoscope ProjectOman - National Geoscope ProjectPakistan - National Geoscope ProjectPalau - National Geoscope ProjectPalestiman Territories - National Geoscope ProjectPanama - National Geoscope ProjectPapua New Guinea - National Geoscope ProjectParaguay - National Geoscope ProjectPeru - National Geoscope ProjectPhilippines - National Geoscope ProjectPitcairn Islands - National Geoscope ProjectPoland - National Geoscope ProjectPortugal - National Geoscope ProjectPuerto Rice - National Geoscope ProjectQatar - National Geoscope ProjectReunion Islands - National Geoscope ProjectRomania - National Geoscope ProjectRussia Federation - National Geoscope ProjectRwanda - National Geoscope ProjectSaint Kitts and Nevis - National Geoscope ProjectSaint Lucia - National Geoscope ProjectSamoa - National Geoscope ProjectSaint Vincent and the Grenadines - National Geoscope ProjectSan Marino - National Geoscope ProjectSao Tome and Principe - National Geoscope ProjectSaudi Arabia - National Geoscope Project

Senegal - National Geoscope ProjectSerbia - National Geoscope ProjectSeychelles - National Geoscope ProjectSierra Leone - National Geoscope ProjectSingapore - National Geoscope ProjectSlovakia - National Geoscope ProjectSlovenia - National Geoscope ProjectSolomon Islands - National Geoscope ProjectSomalia - National Geoscope ProjectSouth Africa - National Geoscope ProjectSouth Sudan - National Geoscope ProjectSpain- National Geoscope ProjectSri Lanka - National Geoscope ProjectSudan - National Geoscope ProjectSuriname - National Geoscope ProjectSwaziland - National Geoscope ProjectSweden - National Geoscope ProjectSwitzerland - National Geoscope ProjectSyria - National Geoscope ProjectTaiwan - National Geoscope ProjectTajikistan - National Geoscope ProjectTanzania - National Geoscope ProjectThailand - National Geoscope ProjectTibet - National Geoscope ProjectTimor-Leste - National Geoscope ProjectTogo - National Geoscope ProjectTokelau - National Geoscope ProjectTonga - National Geoscope ProjectTrinidad and Tobago - National Geoscope ProjectTunisia - National Geoscope ProjectTurkey - National Geoscope ProjectTurkmenistan - National Geoscope ProjectTurks and Caicos Islands - National Geoscope ProjectTuvalu - National Geoscope ProjectUganda - National Geoscope ProjectUkraine - National Geoscope ProjectUnited Arab Emirates - National Geoscope ProjectUnited Kingdom - National Geoscope ProjectUnited States of America - National Geoscope ProjectUruguay - National Geoscope ProjectUzbekistan - National Geoscope ProjectVanuatu - National Geoscope ProjectVatican City - National Geoscope ProjectVenezuela - National Geoscope ProjectVietnam - National Geoscope ProjectVirgin Islands (British) - National Geoscope ProjectVirgin Islands (US) - National Geoscope ProjectWalls and Futuna Islands - National Geoscope ProjectWestern Sahara - National Geoscope ProjectYemen - National Geoscope Project

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Zambia - National Geoscope ProjectZimbabwe - National Geoscope Project

2. Construction:Geoscope means- a mechanical architecture

established in between the underground and observatory with the help of bore-well proposed for conducting geological studies to know the earthquakes, ores and water currents etc.

A borehole having suitable width and depth has to be dug. An observatory having research &analysis facilities has to be constructed on the borehole Apparatus & sensors to recognize the geo- physical and geo-chemical changes generated in the underground such as foreshocks, chemical changes, electrogeopulses, micro-vibrations, pressure, geomagnetic forces etc should be inserted into the underground and linked with the concerned analysis sections of the observatory that is above the ground to study the changes taking place in the underground.

That means-relative results of geological & geographical researches &developments of past, present and future should be interposed, coordinated and constantly developed. The apparatus related to the geology and geography such as Richter scale etc also should be set in the observatories of the Geoscope. we can make many more modern ideas& modifications thus bringing many more improvements & developments in the Geoscope.

And we can build many more types of Geoscopes thus connecting many more levels for national wide network, more and required geoscope centers should be established in the earthquake zones where earthquakes occur frequently and there should be establish a central office to co-ordinate and codify the data of warnings about the onset of earthquake. The central office should analysis the data and estimate the time, epicenter, area etc details of the impending earthquake and send to the authorities and people to take precautions.

3. National Geoscope ProjectMany extensive researches were conducted on

the national geoscopic forewarning system to detect the geological changes in advance. In this system, there should be established three level centers i.e., Local Geoscope Centre, Regional Geoscope Centre and Central Geoscope Centre for maintaining the system in a coordinated manner.3.1 Local Geoscope Centre:

One or more required number of Geoscopes should be established in the expected earthquake zones. The observation personnel in the respective

Geoscopes should watch the onset of earthquakes day and night.3.2. Regional Geoscope Centre:

There should be established a Regional Geoscopic Centre at every expected quake zone to co-ordinate and codify the information supplied by the local geoscopic centers of the zone.3.3 Central Geoscope Centre :

There should be established a Central Geoscopic Centre to co-ordinate and codify the information supplied by the Regional Geoscopic Centers from all over country in a coordinated manner.3.4 Performance:

Whenever a Local Geoscopic Centre sends warning about the onset of earthquakes, the observation personal should immediately send the information to its Regional Geoscopic Centre. The Regional Geoscopic Centre should analysis the information and send it to the Central Geoscopic Centre. The Central Geoscope Centre analyze the information supplied by the Local Geoscopic Centers, Regional Geoscopic Centers and estimates the epicenter, time, area to be affected urban places etc., details of the impending earthquake and send to the authorities, and media and warnings in advance to take precautions.

4. Types Of Geoscope Models4.1 Simple Geoscope:

This is a simple construction involving no expenditure. A deep well having suitable width and depth has to be dug. Construct a room over the well. Wash the inner walls of the room with white Lime. Fix an ordinary electric bulb in the room.4.2 Home Made Geoscope:

This construction involves no expenditure. Even students, children’s and science enthusiasts can make the Home-Made Geoscope and detect the earth-quakes 24 to 28 hrs in advance. By making certain changes and alterations, the house having a well can be converted into a Geoscope i.e., wash the inner walls of the house with white Lime. Fix ordinary electric bulbs in the room.4.3 Performance:

Observe the colour of the room lighting daily. When the bulb glows, the light in room generally appears white in color, but before occurrence of an earth-quake, the room lighting turns blue in colour. The onset of earth-quake can be guessed by this “Seismic luminescence Emission”.4.4 Principle:

Due to stress of continental plates and some other reasons on a place where there are favorable chances for earth-quake to occur, the pressure is induced in the underground. As a result, there is a steady rise in the pressure around the focus centre. Because of the large

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disparity in the magnitude of energies involved, gas anomalies such as (a) Helium emission (b) chemicoseismic anomalies of sulphur, calcium, nitrogen etc., chemical compounds (c) seismic atomic radiations of radioactive mineral compounds show up much earlier even at large distance from the epic-centre which enter the well through the underground springs. These gas anomalies occupy the room in this manner; emit radiation which gives blue colour (some times red) to the room.4.5 Micro Geoscope :

Micro-Geoscope is an elaborate construction. For this model a deep bore-well having suitable width and depth has to be dug. An observatory having the most modern high-technological research facilities has to be constructed on that well. Most modern mechanical systems like electronic, physical and chemical sensors and apparatus to recognize the rise and fall of the underground water levels, micro-vibrations and waves generated in the underground, differences in pressure, temperature and other seismic activities should be inserted into the underground and linked with the concerned research analyzing departments of the observatory that is above the well to observe the seismic changes taking place in the underground. The results of researches on the quakes like Richter scale etc., also should be setup in the Geoscope. That means relative results of past, present and future pertaining to the earthquakes or seismic researches should be interposed, co-ordinate, and constantly developed. We can make many more changes thus bringing many more developments in the geoscope.

Observe the geophysical & geochemical changes such as foreshocks, chemical changes, ground water levels, strain in rocks, thermal anomalies, fractroluminescence’s gas anomalies, electrogeopulses, micro-vibrations, pressure, geomagnetic forces, etc taking place in the underground. The onset of earthquakes can be guessed by observing the aforesaid changes in the concerned analyzing departments of the observatory.

5. Studies:I have proposed much type of studies to study the

earth’s underground through the Geoscope by which we can predict the earthquakes 6 to 24 hours in advance.5.1 Seismic Luminescence Study:

This is a very easy and simple study in the Geoscope Project. Construct a room over a well having suitable width and depth. Wash the inner walls of the room with white lime. Fix an ordinary electric bulb in the room. (Otherwise by making certain changes and alternations any home or office having a well can be converted into the Geoscope. Wash the inner walls of the house with white lime. Fix an

ordinary electric bulb but don’t fix fluorescent lamp in the house. This method involves no expenditure).

Observe the colour of the lightning in the Geoscope room daily 24 hours 365 days. When the bulb glows, the lightning in the room generally appears as white (reddish). But before occurrence of an earth-quake, the room lightning turns violet in colour.

Because, before occurring of an earthquake-gas anomalies such as radon, helium, hydrogen and chemico-mineral evaporations such as sulphur, calcium, nitrogen and other fracto-luminescence radiations show up earlier even at large distances from the epicenter due to stress, disturbances, shock waves and fluctuations in the underground forces. These gas anomalies & fracto luminescence radiations and other chemical evaporations enter into the well through the underground springs. When these anomalies occupy the room above the well, the room lighting turns violet in colour. The light in the room scattered in the presence of these gas anomalies, fracto-luminescence radiations and other chemico-mineral evaporations the ultra violet radiation is emitted more and the room lighting turns in violet colour. Our eye catches these variations in the radiation of the lighting in the room easily since_

a) The violet rays having smaller wave length.b) The violet radiation having property of

extending greatly.c) The light becoming weak in the violet region.d) The eyes having greater sensitivity to violet

radiation.Due to all reasons the room may appear violet in

colour then we can predict the impending earth quakes 12 hours in advance.5.2 Electro Geopulses Study:

This is also easy study to recognize the impending earth quake. A borehole having suitable width and depth has to be dug. An earth wire or rod should be inserted into the underground by the borehole and linked with the concerned analysis section having apparatus to detect, compare measure of the electric currents of the electric circuit of the earth systems. Otherwise by observing the home electric fans. etc. We can also study the electrogeopulses studies to predict the impending earth quake.

Observe the changes in the electric currents of the earth system 24 hours, 365 days. From a power station, the electricity is distributed to the far-off places. Normally the circuit of the power supply being completed through the earth system. Whenever if the disturbances occurs in the layers of the earth’s underground, the fluctuation rate will be more due to the earth quake obstructions such as pressure, faults, vibrations, water currents etc., of the earth’s

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underground. So we can forecast the impending earth quake by observing the obstruction of electric currents of circuit of the earth system in the observatory of the Geoscope and also by the obstruction sounds in the electric fans etc.5.3 Super High Remote Sensing Technological Studies:

Geoscope is also useful In emerging industries such as geothermal and geo-sequestration etc.

Many kinds of super high remote sensing technology in the area of sensor physics, signal processing used specially image processing, electromagnetic detection technology etc should be used in the Geoscope.

Geophysical deep underground detectors and mineral exploration equipments, natural gas sensors etc should be used in the Geoscope.

Electromagnetic sensors may also be used in the Geoscope project.

6. Experiments Carriedout:I have carried out a number of experiments on

the Geoscope project and all were successfully proved out in practice. The risk of earthquakes in Andhra Pradesh is less but the source is greater in north India and other regions in the world where the establishment of the geoscope is very useful.

7. Uses:Geoscope can help to forewarn the earthquakes 6

to 18 hours in advance and also used to detect the mines, water sources of underground of a country. Storm surges, tsunamis, volcanic hazards etc

geological hazard can be predicted. Earth’s ground resources like metallic resources such as iron, gold, silver, tin, copper, nickel, aluminum, chromium etc mine sites and non-metallic resources like sand gravel, gypsum, halite, uranium, dimension stones, etc. can be found.Conclusion:

we can make many more researches on the geoscope thus bringing many more developments, modifications and improvements in the geoscope.

References1. en/Wikipedia.org/wiki/geophysics.2. www.environmental-geophysics.co.uk/

documents/ref-manual/techRef.(A reference for geophysical techniques and applications.

3. en/Wikipedia.org/wiki/American geophysical union.

4. Reference manual-FDSN(www.fdsn.org/seed-manual/SEED MANUAL -V2-4.

5. Online library.wiley.com/doi/10.1029/89EO00202/full.

6. www.geoscope.ae/detail-survey.php .7. www.iris.edu/ .8. seismo.berkeley.edu/2013 part2.9. ngri.org.in/Pdf files/about ngri/annual

report/AR/2005-06/chapter 52005-06.10. www.pik.potsdam.de/members/hlol2e/geoscope-

report-international berlin11. www.atlantis-press com/php/download.12. pubs.usgs.gov/bul/0932a/report.

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Appendices:

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